250吨履带吊性能表
QUY250完整起重性能表
表2-2 主臂起重性能表续表2-2主臂起重性能表续表2-3 固定副臂起重性能表(主臂长度54米时固定副臂起重性能)续表2-3 固定副臂起重性能表(主臂长度60米时固定副臂起重性能)续表2-4 (主臂长度36米时塔式副臂起重性能)续表2-4 (主臂长度36米时塔式副臂起重性能)续表2-4 (主臂长度36米时塔式副臂起重性能)续表2-4 (主臂长度39米时塔式副臂起重性能)续表2-4(主臂长度42米时塔式副臂起重性能)续表2-4 (主臂长度42米时塔式副臂起重性能)续表2-4 (主臂长度45米时塔式副臂起重性能)续表2-4 (主臂长度45米时塔式副臂起重性能)续表2-4 (主臂长度48米时塔式副臂起重性能)续表2-4 (主臂长度48米时塔式副臂起重性能)续表2-4 (主臂长度51米时塔式副臂起重性能)续表2-4 (主臂长度54米时塔式副臂起重性能)续表2-4 (主臂长度54米时塔式副臂起重性能)续表2-4 (主臂长度54米时塔式副臂起重性能)续表2-4 (主臂长度57米时塔式副臂起重性能)续表2-4 (主臂长度57米时塔式副臂起重性能)续表2-4 (主臂长度57米时塔式副臂起重性能)续表2-4 (主臂长度60米时塔式副臂起重性能)对表2-2、2-3、2-5中起重量的说明:1)表中额定起重量所表示的数值,指在给定的臂架长度、幅度条件下,在坚实、平坦(作业过程中不得下陷)、坡度不得大于5‰的地面上本机所能保证的最大起重量,严禁超过该起重量作业,另外作业者须视各种不良条件(例如地面松软或不平、各种不同水平条件、风力、侧面负荷、摆动作用、多台起重机合力起吊)限制或降低起重机的起重量;2)表中所列额定起重量包括吊钩和吊具的重量;3)表中的工作幅度是指吊重后吊钩铅垂线到回转中心的水平距离,包括吊臂的变形量在内的实际值;4)表中没有列出额定值的空白区,表示不准将起重机用于该区所对应的条件;5)使用主臂可以配置臂端单滑轮机构;装有臂端单滑轮机构时的起重量为性能表中相应的额定起重量减去臂端单滑轮机构重量(500kg)、12t吊钩的重量(585kg)和吊具的重量;6)臂端单滑轮机构的最大起重量(包括吊钩、吊具和起升钢丝绳)不准超过12t,性能表中的额定起重量小于12t时按性能表起吊;7)臂端单滑轮的最大幅度,不允许超过所对应的起重机主臂的最大幅度。
50-250吨履带吊性能表
71
65
59
54
50
43
38
33
54
88
88
85
77
71
64
58
54
50
43
37
33
29
60
78
78
78
77
70ቤተ መጻሕፍቲ ባይዱ
63
58
53
49
42
37
32
29
25
23
66
68
68
68
68
63
57
52
48
41
36
32
28
25
22
20
72
58
58
58
58
56
52
48
41
35
31
27
24
22
20
18
78
55
54
53
31
25
20
17
14
12
10
8
7
5
4
40
24
250
190
173
159
146
127
112
100
90
82
75
30
168
158
146
126
111
99
89
81
74
67
62
57
36
138
138
125
110
98
88
80
73
66
61
56
52
42
118
三一250吨履带吊指导书SCC2500C
×5 12.14m 2.34m 2.4m 2.9 t
5
SCC2500C 液压履带起重机
塔况组合 长 宽 高 重量
变幅副臂上节臂 长 宽 高 重量
变幅副臂 3m 中间臂 长 宽 高 重量
变幅副臂 6m 中间臂 长 宽 高 重量
变幅副臂 12m 中间臂 长 宽 高 重量
主臂 12m 中间臂 长 宽 高 重量
先做人后做事,品质改变世界
×1 13.70m 3.40m 3.40m 59 t
×2 9.15m 1.22m 1.38m 27 t
×1 9.34m 2.34m 3.08m 4.5 t
×1 8.57m 2.34m 2.21m 4.9 t 7.3 t
×1 3.14m 2.34m 2.4m 1.1 t
SCC2500C 液压履带起重机
CONTENT
整机基本尺寸 ········································································································2 主要技术特点 ········································································································3 主要性能参数 ········································································································4 运输尺寸 ················································································································5 拆装示意图 ··········································································································10 详细介绍 ··············································································································12 工况组合 ··············································································································16 主臂 H 工况 ·········································································································19 H 工况主臂组合 ··································································································19 H 工况作业范围图·······························································································20 H 工况主臂载荷表·······························································································21 固定副臂 FJ 工况 ································································································25 FJ 工况臂架组合 ·································································································25 FJ 工况作业范围图 ·····························································································26 FJ 工况固定副臂载荷表 ·····················································································27 变幅副臂 LJ 工况 ································································································31 LJ 工况臂架组合 ·································································································31 LJ 工况变幅副臂作业范围图 ·············································································32 LJ 工况变幅副臂载荷表 ·····················································································33 重型固定短副ቤተ መጻሕፍቲ ባይዱ SFH 工况···················································································89 SFH 工况作业范围图 ···························································································89 SFH 工况载荷表 ···································································································90
250吨履带吊性能表三一SCC2500
250吨履带吊性能表三一SCC2500 三一SCC2500-250吨履带吊外形尺寸催(m) (m)注释:表中40%灰度填充的斜体数值表示带标准配重及附加配重的工况,粗框内灰色填充部分表示载荷值是由强度决定的。
说明:1.实际起重量是表中的额定起重量减去起重吊钩、钢丝绳及所有吊具之后的数值;2.表中所示额定起重量是在水平坚硬地面、重物被缓慢平稳吊起、非行走吊重工作时的值。
3.额定载荷在倾翻载荷的75%以内。
注释:表中40%灰度填充的斜体数值表示带标准配重及附加配重的工况,粗框内灰色填充部分表示载荷值是由强度决定的。
说明:1.实际起重量是表中的额定起重量减去起重吊钩、钢丝绳及所有吊具之后的数值;2.表中所示额定起重量是在水平坚硬地面、重物被缓慢平稳吊起、非行走吊重工作时的值。
3.额定载荷在倾翻载荷的75%以内。
主臂H工况起重性能注释:表中40%灰度填充的斜体数值表示带标准配重及附加配重的工况,粗框内灰色填充部分表示载荷值是由强度决定的。
说明:1.实际起重量是表中的额定起重量减去起重吊钩、钢丝绳及所有吊具之后的数值;非行走吊重工作时的值。
3.额定载荷在倾翻载荷的75%以内。
注释:表中40%灰度填充的斜体数值表示带标准配重及附加配重的工况,粗框内灰色填充部分表示载荷值是由强度决定的。
说明:1.实际起重量是表中的额定起重量减去起重吊钩、钢丝绳及所有吊具之后的数值;非行走吊重工作时的值。
3.额定载荷在倾翻载荷的75%以内。
催(m)(m)注释:表中40%灰度填充的斜体数值表示带标准配重及附加配重的工况,粗框内灰色填充部分表示载荷值是由强度决定的。
说明:1.实际起重量是表中的额定起重量减去起重吊钩、钢丝绳及所有吊具之后的数值;2.表中所示额定起重量是在水平坚硬地面、重物被缓慢平稳吊起、非行走吊重工作时的值。
3.额定载荷在倾翻载荷的75%以内。
注释:表中40%灰度填充的斜体数值表示带标准配重及附加配重的工况,粗框内灰色填充部分表示载荷值是由强度决定的。
三一吊车250T参数
三一吊车250T参数
1.最大起重量:250吨
2.起重臂长度:13米至82.5米可调
3.最大行车速度:75公里/小时
4.最大爬坡度:30%
5.型号:QAY250T
6. 发动机型号:Weichai WP13
7. 发动机功率:338kW/1800rpm
8.轮胎尺寸:14.00R25
9.起重机自重:78吨
10.发动机排放标准:国五
11.最小回转半径:4.7米
12.最大提升高度:125米
13.最大提升动臂角度:83度
14.最大满载分动臂角度:30度
15. 液压系统最大工作压力:32Mpa
16.主起重机回转角度:360度无限制
17.控制方式:全液压操纵
18.紧急停机方式:液控制系统
19.电气系统工作电压:24V
20.吊臂折叠方式:全液压自动折叠
21.起重机各项功能(卷筒行走、均衡阀行走、主钩卷筒行走、副钩卷筒行走)均由液压系统控制
22.起重机采用液压自平衡助力系统
23.起重机具备自动故障诊断系统,便于故障排查和维修
24.起重机配置有球墨铸铁制反恢复封闭曲轴弯臂头结构,增加耐磨性和抗冲击性能
25.起重机回转采用行星齿轮制动器,具备较高的刹车力矩和刹车灵敏性
26.起重机具有遥控操作功能,提高操作的安全性和便捷性
27.起重机底盘采用韩国进口的大修筑设备专用底盘,具备较高的稳定性和可靠性
总结:
三一吊车250T是一台功能强大的吊车,具备较高的起重性能和灵活性。
它使用先进的液压系统和自动故障诊断系统,保证了吊车的稳定性和安全性。
该吊车还配备有遥控操作功能,方便操作员进行远程操作。
它的底盘采用进口底盘,具备较高的稳定性和可靠性。
6、260t履带吊QUY260、250t履带吊-SCC2500C、250t履带吊-CC1400
35.0
156.7/7.5 141.5 128.1 114.3 91.0 73.5 61.5 52.4 46.2 40.5 36.2 32.6 29.7 27.2 26/31
38.0
130.1 124.0 111.0 90.5 73.1 61.0 53.5 45.1 39.8 36.0 32.1 29.1 27.0 25.0 22.7
主臂 3m 臂节(宽度 2320)—0.65t×1
主臂 6m 臂节(宽度 2320)—1.1t×1
主臂 9m 臂节(宽度 2320)—1.6t×6
主臂 4m 过渡臂节(宽度 2320)—0.775t×1
固定副臂底节臂(宽度 1540)—0.47t×1
固定副臂 6m 臂节(宽度 1270)—0.79t×3
47.0
108/9.6 97.9 85.1 71.8 60.1 51.0 44.3 39.2 34.9 31.5 28.3 26.1 24.2 22.3 20.2 19.1 17.3 16.2
50.0
53.0
56.0
100/10.1 83.0 71.0 61.1 51.2 44.5 39.8 34.7 31.1 28.1 26.1 24.1 22.1 20.2 18.9 17.1 16.2 15.0
29.0
178/6.4 167.7 147.2 132.0 118.1 92.1 74.2 63.0 53.5 46.7 41.4 37.0 33.5
32.0
157.9 147.6 130.1 117.5 92.3 73.8 61.8 52.7 46.4 41.7 37.4 33.9 30.9 28.6/29
2.1 主臂工况起升高度曲线与起重性能表 2.1.1 主臂工况起升高度曲线
250吨履带吊对码头载荷计算
R1 R2
347.7
G ( L1 L3 ) m1 ( L2 L3 ) 2 R2 L3 m3 ( L3 L4 ) 2 m2 L3 m4 ( L3 L5 )
R2= R1=
100 吨 247 吨
250 吨履带吊履带比压
计 算 书
上
海
博
强
2016/4/12
一、 250吨吊车基本尺寸图二、250吨履带吊主臂工况起重性能表
三、工作描述 印尼中爪哇输煤系统项目安装最大件是卸煤机的机器房,重量156吨,需要两台 250吨履带吊一起抬吊安装该物件。 从主臂工况性能表中可以看出,起吊该物件时主臂长要小于40.5米;幅度控制 在 10 米内;可以至少起吊100吨负荷。 156 t /2 = 78吨。 满足双机抬吊的安全规定。 单条履带的有效接触面积: 标准配重 托盘 40.5m 主臂重 72 13.2 31 吨 吨 吨 6630mm X 1220mm = 附加配重 附加配重 100吨吊钩 5.8 5.8 5.8 吊重 负荷G 主臂 m1 履带重 m2 本体重 m3 配重 m4 L1 L2 L3 L4 L5 8088600 mm2 吨 吨 吨 78 吨 83.8 吨 31 吨 26.5 吨 54.8 吨 96.8 吨 10000 mm 4588 mm 3315 mm 656 mm 5700 mm
左侧履带比压 P 1=
0.31 MPa
在安装卸船机的过程中,卸船机的两侧各 30 米范围都有可能出现 0.31 MPa 的比压。码头设计时应该考虑。